/******************************************************************************
 *                                                                            *
 * Copyright (c) 1999-2004 Wimba S.A., All Rights Reserved.                   *
 *                                                                            *
 * COPYRIGHT:                                                                 *
 *      This software is the property of Wimba S.A.                           *
 *      This software is redistributed under the Xiph.org variant of          *
 *      the BSD license.                                                      *
 *      Redistribution and use in source and binary forms, with or without    *
 *      modification, are permitted provided that the following conditions    *
 *      are met:                                                              *
 *      - Redistributions of source code must retain the above copyright      *
 *      notice, this list of conditions and the following disclaimer.         *
 *      - Redistributions in binary form must reproduce the above copyright   *
 *      notice, this list of conditions and the following disclaimer in the   *
 *      documentation and/or other materials provided with the distribution.  *
 *      - Neither the name of Wimba, the Xiph.org Foundation nor the names of *
 *      its contributors may be used to endorse or promote products derived   *
 *      from this software without specific prior written permission.         *
 *                                                                            *
 * WARRANTIES:                                                                *
 *      This software is made available by the authors in the hope            *
 *      that it will be useful, but without any warranty.                     *
 *      Wimba S.A. is not liable for any consequence related to the           *
 *      use of the provided software.                                         *
 *                                                                            *
 * Class: RawWriter.java                                                      *
 *                                                                            *
 * Author: Marc GIMPEL                                                        *
 *                                                                            *
 * Date: 6th January 2004                                                     *
 *                                                                            *
 ******************************************************************************/

/* $Id: AudioFileWriter.java,v 1.1 2011/12/27 04:39:13 gauss Exp $ */

package com.myaudio.speex;

import java.io.DataOutput;
import java.io.File;
import java.io.IOException;
import java.io.OutputStream;

/**
 * Abstract Class that defines an Audio File Writer.
 * 
 * @author Marc Gimpel, Wimba S.A. (mgimpel@horizonwimba.com)
 * @version $Revision: 1.1 $
 */
public abstract class AudioFileWriter
{
  /**
   * Closes the output file.
   * @exception IOException if there was an exception closing the Audio Writer.
   */
  public abstract void close()
    throws IOException;
  
  /**
   * Open the output file. 
   * @param file - file to open.
   * @exception IOException if there was an exception opening the Audio Writer.
   */
  public abstract void open(File file)
    throws IOException;

  /**
   * Open the output file. 
   * @param filename - file to open.
   * @exception IOException if there was an exception opening the Audio Writer.
   */
  public abstract void open(String filename)
    throws IOException;

  /**
   * Writes the header pages that start the Ogg Speex file. 
   * Prepares file for data to be written.
   * @param comment description to be included in the header.
   * @exception IOException
   */
  public abstract void writeHeader(String comment)
    throws IOException;
  
  /**
   * Writes a packet of audio. 
   * @param data audio data
   * @param offset the offset from which to start reading the data.
   * @param len the length of data to read.
   * @exception IOException
   */
  public abstract void writePacket(byte[] data, int offset, int len)
    throws IOException;

  /**
   * Writes an Ogg Page Header to the given byte array.
   * @param buf     the buffer to write to.
   * @param offset  the from which to start writing.
   * @param headerType the header type flag
   *          (0=normal, 2=bos: beginning of stream, 4=eos: end of stream).
   * @param granulepos the absolute granule position.
   * @param streamSerialNumber
   * @param pageCount
   * @param packetCount
   * @param packetSizes
   * @return the amount of data written to the buffer.
   */
  public static int writeOggPageHeader(byte[] buf, int offset, int headerType,
                                       long granulepos, int streamSerialNumber,
                                       int pageCount, int packetCount,
                                       byte[] packetSizes)
  {
    writeString(buf, offset, "OggS");             //  0 -  3: capture_pattern
    buf[offset+4] = 0;                            //       4: stream_structure_version
    buf[offset+5] = (byte) headerType;            //       5: header_type_flag
    writeLong(buf, offset+6, granulepos);         //  6 - 13: absolute granule position
    writeInt(buf, offset+14, streamSerialNumber); // 14 - 17: stream serial number
    writeInt(buf, offset+18, pageCount);          // 18 - 21: page sequence no
    writeInt(buf, offset+22, 0);                  // 22 - 25: page checksum
    buf[offset+26] = (byte) packetCount;          //      26: page_segments
    System.arraycopy(packetSizes, 0,              // 27 -  x: segment_table
                     buf, offset+27, packetCount);
    return packetCount+27;
  }

  /**
   * Builds and returns an Ogg Page Header.
   * @param headerType the header type flag
   *          (0=normal, 2=bos: beginning of stream, 4=eos: end of stream).
   * @param granulepos the absolute granule position.
   * @param streamSerialNumber
   * @param pageCount
   * @param packetCount
   * @param packetSizes
   * @return an Ogg Page Header.
   */
  public static byte[] buildOggPageHeader(int headerType, long granulepos,
                                          int streamSerialNumber, int pageCount,
                                          int packetCount, byte[] packetSizes)
  {
    byte[] data = new byte[packetCount+27];
    writeOggPageHeader(data, 0, headerType, granulepos, streamSerialNumber,
                       pageCount, packetCount, packetSizes);
    return data;
  }

  /**
   * Writes a Speex Header to the given byte array.
   * @param buf     the buffer to write to.
   * @param offset  the from which to start writing.
   * @param sampleRate
   * @param mode
   * @param channels
   * @param vbr
   * @param nframes
   * @return the amount of data written to the buffer.
   */
  public static int writeSpeexHeader(byte[] buf, int offset, int sampleRate,
                                     int mode, int channels, boolean vbr,
                                     int nframes)
  {
    writeString(buf, offset, "Speex   ");    //  0 -  7: speex_string
    writeString(buf, offset+8, "speex-1.2rc"); //  8 - 27: speex_version
    System.arraycopy(new byte[11], 0, buf, offset+17, 11); // : speex_version (fill in up to 20 bytes)
    writeInt(buf, offset+28, 1);           // 28 - 31: speex_version_id
    writeInt(buf, offset+32, 80);          // 32 - 35: header_size
    writeInt(buf, offset+36, sampleRate);  // 36 - 39: rate
    writeInt(buf, offset+40, mode);        // 40 - 43: mode (0=NB, 1=WB, 2=UWB)
    writeInt(buf, offset+44, 4);           // 44 - 47: mode_bitstream_version
    writeInt(buf, offset+48, channels);    // 48 - 51: nb_channels
    writeInt(buf, offset+52, -1);          // 52 - 55: bitrate
    writeInt(buf, offset+56, 160 << mode); // 56 - 59: frame_size (NB=160, WB=320, UWB=640)
    writeInt(buf, offset+60, vbr?1:0);     // 60 - 63: vbr
    writeInt(buf, offset+64, nframes);     // 64 - 67: frames_per_packet
    writeInt(buf, offset+68, 0);           // 68 - 71: extra_headers
    writeInt(buf, offset+72, 0);           // 72 - 75: reserved1
    writeInt(buf, offset+76, 0);           // 76 - 79: reserved2
    return 80;
  }
  
  /**
   * Builds a Speex Header.
   * @param sampleRate
   * @param mode
   * @param channels
   * @param vbr
   * @param nframes
   * @return a Speex Header.
   */
  public static byte[] buildSpeexHeader(int sampleRate, int mode, int channels,
                                        boolean vbr, int nframes)
  {
    byte[] data = new byte[80];
    writeSpeexHeader(data, 0, sampleRate, mode, channels, vbr, nframes);
    return data;
  }

  /**
   * Writes a Speex Comment to the given byte array.
   * @param buf     the buffer to write to.
   * @param offset  the from which to start writing.
   * @param comment the comment.
   * @return the amount of data written to the buffer.
   */
  public static int writeSpeexComment(byte[] buf, int offset, String comment)
  {
    int length = comment.length();
    writeInt(buf, offset, length);       // vendor comment size
    writeString(buf, offset+4, comment); // vendor comment
    writeInt(buf, offset+length+4, 0);   // user comment list length
    return length+8;
  }

  /**
   * Builds and returns a Speex Comment.
   * @param comment the comment.
   * @return a Speex Comment.
   */
  public static byte[] buildSpeexComment(String comment)
  {
    byte[] data = new byte[comment.length()+8];
    writeSpeexComment(data, 0, comment);
    return data;
  }
  
  /**
   * Writes a Little-endian short.
   * @param out the data output to write to.
   * @param v value to write.
   * @exception IOException
   */  
  public static void writeShort(DataOutput out, short v)
    throws IOException 
  {
    out.writeByte((0xff & v));
    out.writeByte((0xff & (v >>> 8)));
  }
  
  /**
   * Writes a Little-endian int.
   * @param out the data output to write to.
   * @param v value to write.
   * @exception IOException
   */
  public static void writeInt(DataOutput out, int v)
    throws IOException 
  {
    out.writeByte(0xff & v);
    out.writeByte(0xff & (v >>>  8));
    out.writeByte(0xff & (v >>> 16));
    out.writeByte(0xff & (v >>> 24));
  }

  /**
   * Writes a Little-endian short.
   * @param os - the output stream to write to.
   * @param v - the value to write.
   * @exception IOException
   */
  public static void writeShort(OutputStream os, short v)
    throws IOException 
  {
    os.write((0xff & v));
    os.write((0xff & (v >>> 8)));
  }
  
  /**
   * Writes a Little-endian int.
   * @param os - the output stream to write to.
   * @param v - the value to write.
   * @exception IOException
   */
  public static void writeInt(OutputStream os, int v)
    throws IOException 
  {
    os.write(0xff & v);
    os.write(0xff & (v >>>  8));
    os.write(0xff & (v >>> 16));
    os.write(0xff & (v >>> 24));
  }

  /**
   * Writes a Little-endian long.
   * @param os - the output stream to write to.
   * @param v - the value to write.
   * @exception IOException
   */
  public static void writeLong(OutputStream os, long v)
    throws IOException
  {
    os.write((int)(0xff & v));
    os.write((int)(0xff & (v >>>  8)));
    os.write((int)(0xff & (v >>> 16)));
    os.write((int)(0xff & (v >>> 24)));
    os.write((int)(0xff & (v >>> 32)));
    os.write((int)(0xff & (v >>> 40)));
    os.write((int)(0xff & (v >>> 48)));
    os.write((int)(0xff & (v >>> 56)));
  }

  /**
   * Writes a Little-endian short.
   * @param data   the array into which the data should be written.
   * @param offset the offset from which to start writing in the array.
   * @param v      the value to write.
   */
  public static void writeShort(byte[] data, int offset, int v)
  {
    data[offset]   = (byte) (0xff & v);
    data[offset+1] = (byte) (0xff & (v >>>  8));
  }

  /**
   * Writes a Little-endian int.
   * @param data   the array into which the data should be written.
   * @param offset the offset from which to start writing in the array.
   * @param v      the value to write.
   */
  public static void writeInt(byte[] data, int offset, int v)
  {
    data[offset]   = (byte) (0xff & v);
    data[offset+1] = (byte) (0xff & (v >>>  8));
    data[offset+2] = (byte) (0xff & (v >>> 16));
    data[offset+3] = (byte) (0xff & (v >>> 24));
  }

  /**
   * Writes a Little-endian long.
   * @param data   the array into which the data should be written.
   * @param offset the offset from which to start writing in the array.
   * @param v      the value to write.
   */
  public static void writeLong(byte[] data, int offset, long v)
  {
    data[offset]   = (byte) (0xff & v);
    data[offset+1] = (byte) (0xff & (v >>>  8));
    data[offset+2] = (byte) (0xff & (v >>> 16));
    data[offset+3] = (byte) (0xff & (v >>> 24));
    data[offset+4] = (byte) (0xff & (v >>> 32));
    data[offset+5] = (byte) (0xff & (v >>> 40));
    data[offset+6] = (byte) (0xff & (v >>> 48));
    data[offset+7] = (byte) (0xff & (v >>> 56));
  }

  /**
   * Writes a String.
   * @param data   the array into which the data should be written.
   * @param offset the offset from which to start writing in the array.
   * @param v      the value to write.
   */
  public static void writeString(byte[] data, int offset, String v)
  {
    byte[] str = v.getBytes();
    System.arraycopy(str, 0, data, offset, str.length);
  }
}
